Title of article
Controlled invariant feasibility — A general approach to enforcing strong feasibility in MPC applied to move-blocking
Author/Authors
Gondhalekar، A. نويسنده , , Ravi and Imura، نويسنده , , Jun-ichi and Kashima، نويسنده , , Kenji، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2009
Pages
7
From page
2869
To page
2875
Abstract
Strong feasibility of MPC problems is usually enforced by constraining the state at the final prediction step to a controlled invariant set. However, such terminal constraints fail to enforce strong feasibility in a rich class of MPC problems, for example when employing move-blocking. In this paper a generalized, least restrictive approach for enforcing strong feasibility of MPC problems is proposed and applied to move-blocking MPC. The approach hinges on the novel concept of controlled invariant feasibility. Instead of a terminal constraint, the state of an earlier prediction step is constrained to a controlled invariant feasible set. Controlled invariant feasibility is a generalization of controlled invariance. The convergence of well-known approaches for determining maximum controlled invariant sets, and j -step admissible sets, is formally proved. Thus an algorithm for rigorously approximating maximum controlled invariant feasible sets is developed for situations where the exact maximum cannot be determined.
Keywords
Model predictive control , Constrained control , Set invariance , Strong feasibility , Move-blocking
Journal title
Automatica
Serial Year
2009
Journal title
Automatica
Record number
1447884
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